JP2014513632A5 - - Google Patents

Claims (20)

An exhaust treatment assembly for an exhaust generator,
The exhaust treatment assembly comprises one or more cartridges;
Each of the cartridges includes a housing and components housed in the housing, and can at least partially remove carbon dioxide from the exhaust of the exhaust generator,
The component is one or more of a solid absorber and any other component;
The cartridge is one of (1) removable from the exhaust treatment assembly and replaceable with other similar cartridges, and (2) refillable with new components. It is characterized by being,
Exhaust treatment assembly. An exhaust treatment assembly for an exhaust generation device comprising a vehicle ,
An intercooler configured to receive exhaust generated by the vehicle and cool the exhaust while reducing engine noise of the vehicle;
One or more cartridges including a component capable of at least partially removing carbon dioxide from the exhaust of the vehicle, wherein the component is one or more of a solid absorbent and any other component And
The exhaust treatment assembly, wherein the one or more cartridges are configured to selectively receive cooled exhaust from the intercooler and output processed exhaust. An input connection assembly for selectively coupling exhaust generated by the exhaust generator to the one or more cartridges;
  A control assembly for controlling the flow of the exhaust generated by the exhaust generating device to the one or more cartridges via the input connection assembly;
  The exhaust treatment assembly according to claim 1, wherein the exhaust treatment assembly is provided.   (A) the control assembly includes the concentration of carbon dioxide in the processed exhaust gas output from at least one cartridge and the exhaust gas while the exhaust gas generated by the exhaust gas generator is conveyed through the at least one cartridge; Monitoring the carbon dioxide removal capacity of at least one cartridge based on one or more of the amount of fuel consumed by the generator;
  (B) The exhaust treatment assembly includes the exhaust generated by the exhaust generation device so that the exhaust is conveyed through one of the first cartridge and the second cartridge. At least a first cartridge and a second cartridge connected using an input connection assembly, wherein the control assembly monitors at least one carbon dioxide removal capability of the first cartridge and the second cartridge. And (1) the exhaust is connected through the first cartridge while the second cartridge is in standby, and the control assembly removes the carbon dioxide from the first cartridge. And (2) if the control assembly determines that the carbon dioxide removal capacity of the first cartridge is less than a predetermined value, The control assembly controls the flow of exhaust through the input connection assembly so that the exhaust is not transported through the first cartridge and the exhaust is transported through the second cartridge. And the control assembly controls the flow of the exhaust through the input connection assembly so as to monitor the carbon dioxide removal capacity of the second cartridge.
  (C) the input connection assembly includes a plurality of flow control members corresponding to the one or more cartridges for controlling the flow of the exhaust to the one or more cartridges, the control assembly comprising: Controlling the opening and closing of the plurality of flow control members to selectively control the flow of the exhaust to the one or more cartridges;
  (D) the one or more cartridges are disposed in one or more chambers, and the input connection assembly selectively couples the exhaust generated by the exhaust generation device with the one or more chambers; And
  (E) the input connection assembly is configured to evenly distribute the exhaust flow to two or more cartridges; the input connection assembly includes: (1) an equal flow to the two or more cartridges; A plurality of connection lines configured for distribution; (2) one or more buffers in one or more connection lines for controlling the flow distribution; and (3) 1 for controlling the flow distribution. Comprising one or more of one or more constrictions in one or more connecting lines;
  The exhaust treatment assembly according to claim 3, characterized by one of the following:   The control assembly includes a concentration of carbon dioxide in the processed exhaust output from the at least one cartridge and the exhaust generation device while the exhaust generated by the exhaust generation device is conveyed through the at least one cartridge. Monitoring the carbon dioxide removal capacity of at least one cartridge based on one or more of the amount of fuel consumed by
    (A) the exhaust treatment assembly further comprises one or more carbon dioxide sensors for sensing carbon dioxide in the treated exhaust gas output from the at least one cartridge;
    (B) If the control assembly determines that the carbon dioxide removal capacity of the one or more cartridges to which the exhaust is conveyed is less than a predetermined value, the control assembly Displaying an alarm to an operator; and controlling to stop the flow of exhaust through the one or more cartridges and transport the exhaust flow through one or more other cartridges; Doing at least one of
    (C) The input connection assembly further includes a bypass connection line that couples the exhaust output by the exhaust generation device to the outside without conveying the exhaust through the cartridge, and the control assembly includes If the control assembly determines that the carbon dioxide removal capacity of the one or more cartridges carrying the exhaust is less than a predetermined value, the control assembly displays an alarm to an operator of the exhaust generator; Controlling the exhaust flow through the one or more cartridges to stop and conveying the exhaust flow through one or more other cartridges; and the exhaust to the one or more cartridges Controlling to stop the flow of gas and to convey the flow of exhaust gas to the bypass connection line,
    Is one of
  The exhaust treatment assembly according to claim 3, wherein:   An input connection assembly for selectively coupling exhaust generated by the exhaust generator to the one or more cartridges;
  A control assembly for controlling the flow of the exhaust generated by the exhaust generation device to the one or more cartridges via the input connection assembly;
    (A) the input connection assembly includes a plurality of flow control members corresponding to the one or more cartridges for controlling the flow of the exhaust to the one or more cartridges, the control assembly comprising: Controlling the opening and closing of the plurality of flow control members to selectively control the flow of the exhaust to the one or more cartridges, and the exhaust treatment assembly couples the one or more cartridges to the outside And further comprising an output connection assembly for outputting the externally processed exhaust from one or more cartridges,
    (B) the one or more cartridges are disposed in one or more chambers, and the input connection assembly selectively couples the exhaust generated by the exhaust generation device with the one or more chambers; The exhaust treatment assembly includes a plurality of chambers including at least a first chamber and a second chamber, each of the chambers containing two or more cartridges connected together and the input connection An assembly couples the exhaust generated by the exhaust generator and the plurality of chambers such that the exhaust is conveyed through one of the first chamber and the second chamber. And (1) the exhaust is conveyed to the first chamber while the second chamber is on standby, and the control assembly is placed in front of the first chamber. Monitoring the carbon dioxide removal capacity of the cartridge; and (2) if the control assembly determines that the carbon dioxide removal capacity of the cartridge in the first chamber is less than a predetermined value, the control assembly. Controlling the flow of the exhaust so that no exhaust is conveyed through the first chamber and the exhaust is conveyed through the second chamber;
    Is one of
  The exhaust treatment assembly according to claim 1, wherein:   The component comprises a solid absorbent, and the solid absorbent comprises one or more of alkali hydroxide, alkaline earth hydroxide, lime, and soda lime.
  An exhaust treatment assembly according to any one of claims 1 and 2, characterized in that   (A) the exhaust treatment assembly further comprises a cooling unit for further cooling the cooled exhaust output from the intercooler;
  (B) the cartridge is (1) removable from the vehicle exhaust treatment assembly and replaceable with other similar cartridges; and (2) refillable with new components. , One of
  (C) The vehicle used with the exhaust treatment assembly further includes a chassis and a main body, the intercooler is disposed under the chassis or in a lower portion of the chassis, and the muffler and resonator of the vehicle. Replacing, and
  (D) The vehicle used with the exhaust treatment assembly includes a chassis, a body, and a catalytic converter, the intercooler is disposed under the chassis or in a lower portion of the chassis, and the vehicle muffler And the resonator is replaced, and the intercooler receives the exhaust gas output from the catalytic converter,
    Is one of
  The exhaust treatment assembly according to claim 2, wherein:   A vehicle comprising a chassis, a main body, and an exhaust treatment assembly according to claim 3,
    The body includes an occupant compartment and a storage compartment;
    The cartridge is housed within the storage compartment of the body and accessible through the storage compartment for one of removal and replacement and refilling of the components; and
    The number of cartridges is based at least on the dimensions of the storage compartment
  A vehicle characterized by that.   The vehicle includes a vehicle controller for controlling the operation of the vehicle,
At least a portion of the input connection assembly is disposed outside the vehicle body and connected to the chassis of the vehicle;
  The control assembly of the vehicle exhaust treatment assembly is (1) part of the vehicle controller and (2) separated from the vehicle controller and configured to communicate with the vehicle controller. And being one of them
  The vehicle according to claim 9.   A method of removing carbon dioxide from exhaust produced by an exhaust generator using an exhaust treatment assembly according to claim 1, wherein the method comprises:
  Providing one or more cartridges, each of the cartridges including a component for at least partially removing carbon dioxide from the exhaust gas, the component comprising a solid absorbent and any other configuration One or more of the elements, each of the cartridges being one or more of being replaceable with a similar cartridge and being able to refill components; and
  Transporting exhaust gas from the exhaust generator to at least one of the cartridges;
  Outputting processed exhaust from the at least one of the cartridges;
  A method comprising the steps of:   Monitoring the at least one carbon dioxide removal capacity of the cartridge; and determining whether the at least one carbon dioxide removal capacity of the cartridge is less than a predetermined value;
    The predetermined condition occurs when it is determined that the at least one carbon dioxide removal capability of the cartridge is less than a predetermined value; and
  Removing and replacing at least one of the cartridges after occurrence of a predetermined condition; removing a component from at least one of the cartridges after occurrence of the predetermined condition; and at least one of the cartridges And refilling one with a new one
  The method according to claim 11, wherein:   (A) the method is to stop the flow of the exhaust to the at least one of the cartridges and to transport the exhaust to at least one other cartridge when the predetermined condition occurs; Further comprising one or more of: controlling the flow of exhaust and displaying an alarm to a user; and
  (B) The step of providing the one or more cartridges includes providing a plurality of cartridges, and the step of conveying the exhaust gas includes conveying the exhaust gas to at least one of the plurality of cartridges. And when the predetermined state occurs, determining whether any other cartridge in the plurality of cartridges is in a standby state, and determining that at least one other cartridge is in a standby state, If the exhaust flow is changed from at least one of the cartridges to at least one other cartridge in the standby state, an alarm is displayed to the user, and the other cartridge is determined not to be in the standby state, the user An alarm is displayed and the exhaust flow is blocked by the plurality of cartridges. Be modified to be transported to a bypass line which passes,
  Is one of
  The method according to claim 12, wherein:   A cartridge for use in an exhaust treatment assembly according to claim 1,
  The cartridge is
  A housing having a lower end and an upper end;
  A component housed in the housing that at least partially removes carbon dioxide from the exhaust of the exhaust generator, wherein the component is one or more of a solid absorbent and any other component Comprising the above components,
  The housing is removable to the exhaust system of the exhaust generator so that the exhaust generated by the exhaust system is transported from the lower end of the housing to the upper end of the housing via the housing Configured to be combined in a secure state; and
  The cartridge can be replaced and refilled with new components by at least one similar cartridge,
  A cartridge for use in an exhaust treatment assembly.   (A) the component is a solid absorbent, and comprises one or more of an alkali hydroxide absorbent, an alkaline earth hydroxide, lime, and soda lime, and preferably the component is It is a granular absorbent material and comprises granules having a diameter of 3 to 4 mm,
  (B) the housing includes one or more buffers for directing and distributing the flow of the exhaust through the housing;
  Is one of the things
  15. A cartridge for use in an exhaust treatment assembly according to claim 14, characterized in that   A method for removing carbon dioxide from one or more carbon dioxide generators, wherein each of the carbon dioxide generators removes carbon dioxide from the exhaust to an exhaust treatment assembly according to claim 1. Output,
  The method is
  Collecting at least one of a used cartridge and a used component from the exhaust treatment assembly;
    (A) providing at least one of a replacement cartridge and a replacement component for use in the one or more exhaust treatment assemblies instead of the used cartridge or component;
    (B) providing a used component product to one or more users of the used component, wherein the used component product is obtained from the used component and the used component; Comprising one or more of the following materials; and
    (C) Regenerating the at least one of the used cartridge and the used component obtained in the obtaining step, and generating and regenerating compressed carbon dioxide as a result of regeneration in the regenerating step. Providing at least one of the cartridge and regenerated component to the one or more component replacement stations, and providing compressed carbon dioxide to a carbon dioxide consumer;
    One or more of
  A method further comprising:   (A) providing at least one of a used cartridge and a used component to one or more component regeneration providers, and at least one of the regenerated cartridge and the regenerated component; Receiving from one or more component regeneration providers; and
  (B) receiving credits, wherein the credits are proportional to the amount of carbon dioxide removed from the exhaust by the cartridge, and the credits may be sold to other entities, and used cartridges And providing a discount or incentive to the operator of the carbon dioxide generator in the replacement of at least one of the used components;
  One of
  The method of claim 16, further comprising:   2. A method of utilizing components generated by removing carbon dioxide from one or more carbon dioxide generators, each of the carbon dioxide generators delivering exhaust to the exhaust treatment assembly of claim 1. Output to remove carbon dioxide from the exhaust, at least one of the used cartridge and the used component from one or more exhaust treatment assemblies is recovered;
  The method
    Combining the spent components with impurities to form slag in the process of quicklime production, slaked lime production, cement production, iron removal from iron ore in blast furnace, melting and smelting, removing sulfur After reacting with sulfur dioxide in the process, glass making, acid neutralization applications, paper, paint, rubber and plastic fillers, filtration as filter stones in sewage treatment systems, roofing material production, after purification For one or more of providing calcium in livestock, building roads as aggregate, providing coal mine safety dust, building materials, and producing seat-lock materials Includes the process to use
  A method characterized by that.   And receiving credits, wherein the provided credits are proportional to the amount of carbon dioxide removed by the cartridge from the exhaust, and the credits may be sold to other entities. In addition,
  19. A method according to any one of claims 16-18.   (A) the carbon dioxide generating device is a vehicle, and the exhaust treatment assembly is an input connection assembly for selectively coupling the exhaust generated by the exhaust generating device to the one or more cartridges; And a control assembly for controlling the flow of the exhaust generated by the exhaust generator to the one or more cartridges via the input connection assembly, the control assembly comprising at least one The carbon dioxide removal capacity of the two cartridges is determined by the concentration of carbon dioxide in the exhaust gas to be processed output from the at least one cartridge while the exhaust gas produced by the carbon dioxide generator is conveyed through the at least one cartridge. Monitoring based on one or more of the distance traveled by the vehicle and the fuel consumed by the vehicle;
  (B) the exhaust generation device is a home heating device, and the exhaust treatment assembly is further processed to (1) the exhaust of the exhaust generation device, (2) output from the one or more cartridges Including a heating assembly for heating the water using at least one of the exhausts;
  (C) the exhaust generation device is one of a water heating device and a water heating system, and the exhaust treatment assembly is output from the exhaust of the exhaust generation device and the one or more cartridges. Further comprising a heating assembly for heating water using at least one of the treated exhausts, wherein all or part of the water heated by the heating assembly is used for further heating. Provided to an exhaust generation device; and
  (D) the exhaust generation device is a vehicle, and the cartridge is sized according to the size of the vehicle;
  The exhaust treatment assembly according to claim 1, characterized by one of the following: